Paper Detail

Who Handles Orientation? Investigating Invariance in Feature Matching

David Nordström, Johan Edstedt, Fredrik Kahl, Georg Bökman

Browse

Workflow Queues

arxiv Score 6.3

Published 2026-04-13 · First seen 2026-04-14

General AI

Open paper source

Abstract

Finding matching keypoints between images is a core problem in 3D computer vision. However, modern matchers struggle with large in-plane rotations. A straightforward mitigation is to learn rotation invariance via data augmentation. However, it remains unclear at which stage rotation invariance should be incorporated. In this paper, we study this in the context of a modern sparse matching pipeline. We perform extensive experiments by training on a large collection of 3D vision datasets and evaluating on popular image matching benchmarks. Surprisingly, we find that incorporating rotation invariance already in the descriptor yields similar performance to handling it in the matcher. However, rotation invariance is achieved earlier in the matcher when it is learned in the descriptor, allowing for a faster rotation-invariant matcher. Further, we find that enforcing rotation invariance does not hurt upright performance when trained at scale. Finally, we study the emergence of rotation invariance through scale and find that increasing the training data size substantially improves generalization to rotated images. We release two matchers robust to in-plane rotations that achieve state-of-the-art performance on e.g. multi-modal (WxBS), extreme (HardMatch), and satellite image matching (SatAst). Code is available at https://github.com/davnords/loma.

Workflow Status

Review status
pending
Role
unreviewed
Read priority
soon
Vote
Not set.
Saved
no
Collections
Not filed yet.
Next action
Not filled yet.

Reading Brief

No structured notes yet. Add `summary_sections`, `why_relevant`, `claim_impact`, or `next_action` in `papers.jsonl` to enrich this view.

Why It Surfaced

No ranking explanation is available yet.

Tags

No tags.

Similar Papers

LoMa: Local Feature Matching Revisited 2026-04-06 · Score 5.8 General AI Coevolving Representations in Joint Image-Feature Diffusion 2026-04-19 · Score 4.5 General AI Many-to-many stable matching in large economies 2026-04-29 · Score 5.2 General AI Epistemic orientation in parliamentary discourse is associated with deliberative democracy 2026-04-21 · Score 9.3 General AI Flexibility allocation in random bipartite matching markets: exact matching rates and dominance regimes 2026-04-02 · Score 3.8 General AI

BibTeX

@article{nordstrm2026who,
  title = {Who Handles Orientation? Investigating Invariance in Feature Matching},
  author = {David Nordström and Johan Edstedt and Fredrik Kahl and Georg Bökman},
  year = {2026},
  abstract = {Finding matching keypoints between images is a core problem in 3D computer vision. However, modern matchers struggle with large in-plane rotations. A straightforward mitigation is to learn rotation invariance via data augmentation. However, it remains unclear at which stage rotation invariance should be incorporated. In this paper, we study this in the context of a modern sparse matching pipeline. We perform extensive experiments by training on a large collection of 3D vision datasets and evalua},
  url = {https://arxiv.org/abs/2604.11809},
  keywords = {cs.CV},
  eprint = {2604.11809},
  archiveprefix = {arXiv},
}

Metadata

{}